Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of gene-transduction of a co-stimulatory molecule, CD80, on generation of cytotoxic T lymphocytes (CTL) against oral squamous cell carcinoma (SCC) was investigated. Long-term or primarily-established short-term cultured oral SCC cell lines were transfected with the human CD80 gene using a replication-deficient recombinant adenovirus (Ad). High levels of CD80 expression were obtained in most tumor cell lines examined. Allogeneic peripheral blood mononuclear cells (PBMC) co-cultured with CD80-transduced tumor cells for 7 days elicited high cytotoxicity against melanoma (526 mel) and neuroblastoma (IMR32) cells, but not against oral SCCs (HSC3 and Ca9-22). Addition of either IL-2 or IL-12 failed to induce specific cytotoxicity against oral SCC cell lines. The combined effect of CD80-transduced tumor cells and cytokines, IL-2 and IL-12, on generation of CTL in allogeneic and autologous system was investigated. PBMC from three SCC patients elicited MHC-restricted and TCR-dependent cytotoxicity against autologous SCC, although the level of induced cytotoxicity varied. In contrast, allogeneic PBMC obtained from healthy donors exhibited non-specific cytotoxicity alone. These results suggested that CD80-transduction may be effective in oral SCC for generating tumor specific CTL in an autologous system.
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PMID:[Studies on generation of cytotoxic T lymphocytes against oral squamous carcinoma by gene-transduction of a co-stimulatory molecule, CD80]. 1033 53

Tumour cells display low to absent expression of costimulatory molecules. Here, we have investigated the expression of costimulatory molecules (CD40, CD80, CD86, PD-1L, B7H2, OX40L and 4-1BBL) in human neuroblastoma (NB) cells, since virtually no information is available on this issue. Both established NB cell lines and primary tumours were tested by RT-PCR and flow cytometry. Neuroblastoma cell lines expressed the transcripts of all costimulatory molecule genes, but not the corresponding proteins. Culture of NB cell lines with human recombinant (r)IFN-gamma induced surface expression of CD40 in half of them. Primary NB cells showed CD40, CD80, CD86, OX40L, 4-1BBL, but not PD-1L and B7H2, mRNA expression. Surface CD40 was consistently detected on primary NB cells by flow cytometry. Interferon-gamma gene-transfected NB cells expressed constitutively surface CD40 and were induced into apoptosis by incubation with rCD40L through a caspase-8-dependent mechanism. CD40 may represent a novel therapeutic target in NB.
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PMID:Expression of costimulatory molecules in human neuroblastoma. Evidence that CD40+ neuroblastoma cells undergo apoptosis following interaction with CD40L. 1277 17

A murine model for neuroblastoma, Neuro-2a (N2a), was used to establish a model tumor vaccine. An aggressive subclone of N2a and the less aggressive parental line were transfected with CD80, CD86, or both molecules and stable lines were established. The less aggressive N2a expressing either CD80 or CD86 induced anti-tumor immunity. In contrast, dual expression of CD80 and CD86 was required to initiate a protective anti-tumor immune response against the aggressive subclone. Control of tumor growth was dependent on CD8+ lymphocytes that infiltrated dual-expressing (CD80 and CD86) lesions. These tumor-infiltrating lymphocytes (TIL) exhibited a non-classical mechanism of tumor cell lysis that may require both the up-regulation of cell surface molecules on the tumor and the subsequent lytic activity normally associated with CD8+ TIL. Although Fas was up-regulated by the tumor in the presence of IFN-gamma, N2a and transfected N2a cell lines were not sensitive to Fas-mediated lysis.
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PMID:Dual expression of CD80 and CD86 produces a tumor vaccine superior to single expression of either molecule. 1279 4

Green fluorescent protein (GFP) is employed as a selection marker for gene transduction and to track tumor cells. Transduction of enhanced GFP (eGFP) into human neuroblastoma cell lines via a lentiviral vector significantly sensitized CHLA-20 (wild-type and functional TP53), and to a lesser extent CHLA-90 cells (multidrug-resistant, mutant, and nonfunctional TP53) to carboplatin, doxorubicin, etoposide, or melphalan, relative to cells transduced using the cell surface antigen CD80 as a selection marker. Total glutathione (GSH) was significantly up-regulated (1.8- to 2.8-fold) after eGFP (but not CD80) transduction in cell lines with, but not in those lacking, functional p53. Cytotoxicity of GSH depletion by buthionine sulfoximine in CHLA-20 (but not in CHLA-20-eGFP) was diminished by hypoxia (2% O(2)). Thus, oxidative stress produced by GFP selects for cells with up-regulated GSH in a p53-dependent manner, and also enhanced the cytotoxicity of anticancer drugs in neuroblastoma cell lines. Our data suggest caution when employing GFP-transduced cells to assess drug sensitivity and that using a cell surface antigen as a selection marker for gene transduction may perturb cells less than GFP.
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PMID:Transduction of green fluorescent protein increased oxidative stress and enhanced sensitivity to cytotoxic drugs in neuroblastoma cell lines. 1455 10

CTLA-4 (CD152) is a cell surface receptor that behaves as a negative regulator of the proliferation and the effector function of T cells. We have previously shown that CTLA-4 is also expressed on neoplastic lymphoid and myeloid cells, and it can be targeted to induce apoptosis. In our study, we have extended our analysis and have discovered that surface expression of CTLA-4 is detectable by flow cytometry on 30 of 34 (88%) cell lines derived from a variety of human malignant solid tumors including carcinoma, melanoma, neuroblastoma, rhabdomyosarcoma and osteosarcoma (but not in primary osteoblast-like cultures). However, by reverse transcriptase-PCR, CTLA-4 expression was detected in all cell lines. We have also found, by immunohistochemistry, cytoplasmic and surface expression of CTLA-4 in the tumor cells of all 6 osteosarcoma specimens examined and in the tumour cells of all 5 cases (but only weakly or no positivity at all in neighbouring nontumor cells) of ductal breast carcinomas. Treatment of cells from CTLA-4-expressing tumor lines with recombinant forms of the CTLA-4-ligands CD80 and CD86 induced apoptosis associated with sequential activation of caspase-8 and caspase-3. The level of apoptosis was reduced by soluble CTLA-4 and by anti-CTLA-4 scFvs antibodies. The novel finding that CTLA-4 molecule is expressed and functional on human tumor cells opens up the possibility of antitumor therapeutic intervention based on targeting this molecule.
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PMID:CTLA-4 is constitutively expressed on tumor cells and can trigger apoptosis upon ligand interaction. 1591 38

The goal of this study was to show that nonviral gene transfection technology can be used to genetically modify neuroblastoma cells with immune stimulatory molecules, and that the modified cells can generate an antitumor immune response. The authors found that an electroporation-based gene transfection method, nucleofection, could be used to modify mouse AGN2a (an aggressive variant of Neuro-2a) neuroblastoma cells to simultaneously express as many as four different immune stimulatory molecules encoded by separate plasmid vectors. Within 18 hours after nucleofection, greater than 60% of the cells typically expressed the transfected gene products, and the percentages of cells expressing the products often exceeded 96%. High levels of plasmid in cell nuclei immediately after nucleofection documented instantaneous availability of gene vectors to the transcriptional machinery. AGN2a cells nucleofected to express the co-stimulatory molecules CD80 and CD86 expressed higher levels of these molecules than cells that had been permanently transfected with these same plasmid vectors, and the nucleofected cells were as effective as the permanently transfected cells at inducing an antitumor response in vivo in a tumor prevention model. AGN2a cells nucleofected with four separate plasmid vectors encoding CD54, CD80, CD86, and CD137L induced a T-cell immune response in vitro and served as a potent tumor vaccine in the tumor prevention model. These data show that transient transfection using a nonviral based method, nucleofection, can be used to rapidly generate novel cell-based tumor vaccines.
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PMID:Neuroblastoma cells transiently transfected to simultaneously express the co-stimulatory molecules CD54, CD80, CD86, and CD137L generate antitumor immunity in mice. 1611 1

The engineered expression of the immune co-stimulatory molecules CD80 and CD137L on the surface of a neuroblastoma cell line converts this tumor into a cell-based cancer vaccine. The mechanism by which this vaccine activates the immune system was investigated by capturing and analyzing immune cells responding to the vaccine cell line embedded in a collagen matrix and injected subcutaneously. The vaccine induced a significant increase in the number of activated CD62L(-) CCR7(-) CD49b(+) CD8 effector memory T cells captured in the matrix. Importantly, vaccine responsive cells could be detected in the vaccine matrix within a matter of days as demonstrated by IFN-gamma production. The substitution of unmodified tumor cells for the vaccine during serial vaccination resulted in a significant decrease in activated T cells present in the matrix, indicating that immune responses at the vaccine site are a dynamic process that must be propagated by continued co-stimulation.
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PMID:Cellular immune response to an engineered cell-based tumor vaccine at the vaccination site. 1754 14

Abstract The development of tumor vaccines or generation of tumor-specific cytotoxic T lymphocytes (CTL) is limited by the fact that many tumor cells downregulate the expression of major histocompatibility complex (MHC) Class I and II molecules, as well as key co-stimulatory molecules such as CD80 and CD86. An immune response to a vaccine or in vitro stimulation of tumor-specific CTL requires antigen-presenting cells conveying tumor antigens in the context of a host's MHC antigens. We have used a retroviral vector (murine stem cell virus) encoding neomycin resistance to transduce three pediatric tumor cell lines (two neuroblastoma, one neuroepithelial tumor). An EBV transformed B lymphoblastoid cell line (BLCL) was transduced with a separate vector encoding puromycin resistance and green fluorescent protein, individual tumor lines were fused with the BLCL, and the resulting hybridomas were selected using both antibiotics. The resulting hybridoma cells expressed the neural antigen GD2 as well as MHC Class I, Class II, CD 80, and CD86. A similar strategy could be used to produce stable hybridomas for either vaccination or for CTL expansion.
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PMID:Fusion of B lymphoblastoid and tumor cells expressing different antibiotic resistance genes facilitates selection of stable hybridomas. 1878 30

In malignancies where no universally expressed dominant Ag exists, the use of tumor cell-based vaccines has been proposed. We have modified a mouse neuroblastoma cell line to express either CD80 (B7.1), CD137L (4-1BBL), or both receptors on the tumor cell surface. Vaccines expressing both induce a strong T cell response that is unique in that among responding CD8 T cells, a T effector memory cell (T(EM)) response arises in which a large number of the T(EM) express the alpha-chain of VLA-2, CD49b. We demonstrate using both in vitro and in vivo assays that the CD49b(+) CD8 T cell population is a far more potent antitumor effector cell population than nonfractionated CD8 or CD49b(-) CD8 T cells and that CD49b on vaccine-induced CD8 T cells mediates invasion of a collagen matrix. In in vivo rechallenge studies, CD49b(+) T cells no longer expanded, indicating that CD49b T(EM) expansion is restricted to the initial response to vaccine. To demonstrate a mechanistic link between the expression of costimulatory molecules on the vaccine and CD49b on responding T cells, we stimulated naive T cells in vitro with artificial APC expressing different combinations of anti-CD3, anti-CD28, and CD137L. Although some mRNA encoding CD49b was induced by combining anti-CD3 with anti-CD28 or CD137L, the highest level was induced when all three signals were present. This indicates that CD49b expression results from additive costimulation and that the level of CD49b message serves as an indicator of the effectiveness of T cell activation by a cell-based vaccine.
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PMID:Induction of a VLA-2 (CD49b)-expressing effector T cell population by a cell-based neuroblastoma vaccine expressing CD137L. 1880 64

A promising cancer treatment strategy involves stimulation of anti-tumor immune responses. CD4(+) T cell responses are particularly desirable, as they enhance CD8(+) T cell activity and provide immune memory. The major histocompatibility complex (MHC) class II transactivator CIITA can be used to stimulate expression of MHC II on tumor cells, thereby promoting CD4(+) T cell activation. In this study, N2a neuroblastoma cells were stably transfected with CIITA. N2aCIITA cells displayed increased expression of MHC I, MHC II and invariant chain; CD80 and CD86 were expressed by neither the parental N2a cells nor by the N2aCIITA cells. All mice injected with N2aCIITA cells developed tumors. Furthermore, no increase in the numbers of T cells, natural killer cells, macrophages, or eosinophils was observed in the spleens or tumors of mice injected with N2aCIITA cells, compared to tissues from mice injected with the parental N2a cells. This absence of an anti-tumor immune response despite MHC II expression is likely due to the presence of invariant chain, in support of the MHCII(+)/Ii(-) paradigm.
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PMID:Invariant chain+ N2a neuroblastoma cells stably expressing the class II MHC transactivator CIITA fail to stimulate anti-tumor immunity. 1895 77


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